BOOL CGatewayInfoteamSerialToI::I_WriteData(CInterfaceManagerBase* pInterfaceManager,HANDLE hI_Handle,HANDLE hTransactionHandle,void* pData,DWORD dNumberOfBytesToWrite,DWORD* pdNumberOfBytesWritten,CErrorInfo* pErrorInfo) { BOOL oResult(FALSE); //Has to be implementeded by child class return oResult; }
BOOL CGatewayCANopenToEpos::SetDeviceTimeout(CDeviceCommandSetManagerBase* p_pManager, HANDLE p_hHandle, DWORD p_ulTimeout) { WORD usTimeout(0); BOOL oResult(FALSE); CErrorInfo errorInfo; HANDLE hTransactionHandle(NULL); BYTE ubNodeId(0); CStdString interfaceName(_T("")); if(p_pManager) { if(p_pManager->DCS_GetInterfaceName(p_hHandle, &interfaceName)) { //Init usTimeout = (WORD)p_ulTimeout; if(GetAddressParameter(p_pManager, p_hHandle, ubNodeId, &errorInfo)) { if(interfaceName == INTERFACE_RS232) { //RS232 Frame Timeout oResult = DCS_WriteObject(p_pManager, p_hHandle, hTransactionHandle, ubNodeId, INDEX_RS232_FRAME_TIMEOUT, SUBINDEX_RS232_FRAME_TIMEOUT, (BYTE*)&usTimeout, sizeof(usTimeout), &errorInfo); } } } } return oResult; }
BOOL CGatewayMaxonSerialV2ToRS232::I_ReadData(CInterfaceManagerBase* pInterfaceManager, HANDLE hI_Handle, HANDLE hTransactionHandle, void* pData, DWORD dNumberOfBytesToRead, DWORD* pdNumberOfBytesRead, CErrorInfo* pErrorInfo) { BOOL oResult(FALSE); DWORD ulDataLength; if(m_pCommand_ReadData && pInterfaceManager) { //Set Parameter Data m_pCommand_ReadData->ResetStatus(); m_pCommand_ReadData->SetParameterData(0, &dNumberOfBytesToRead, sizeof(dNumberOfBytesToRead)); //Execute Command oResult = pInterfaceManager->ExecuteCommand(m_pCommand_ReadData, hI_Handle, hTransactionHandle); //Limit Parameter Length ulDataLength = m_pCommand_ReadData->GetReturnParameterLength(0); if(ulDataLength > dNumberOfBytesToRead) ulDataLength = dNumberOfBytesToRead; //Get ReturnParameter Data m_pCommand_ReadData->GetReturnParameterData(0, pData, ulDataLength); if(pdNumberOfBytesRead) *pdNumberOfBytesRead = ulDataLength; //Get ErrorCode m_pCommand_ReadData->GetErrorInfo(pErrorInfo); } return oResult; }
BOOL CObjectEntry::SetValueStringFormat(CStdString strFormattedValue) { CMmcDataConversion conversion; unsigned __int64 uInt64Value(0); CStdString strValue = _T(""); int iIndex; BOOL oResult(TRUE); //Remove leading text iIndex = strFormattedValue.FindOneOf("0123456789"); if(iIndex != -1) strValue = strFormattedValue.Right(strFormattedValue.GetLength()-iIndex); else strValue = strFormattedValue; //Check Types if(conversion.DecUInt64Str2UInt64(strValue, &uInt64Value, FALSE)) { m_ValueStringFormat = OVF_DEC; oResult = TRUE; } else if(conversion.HexUInt64Str2UInt64(strValue, &uInt64Value, FALSE)) { m_ValueStringFormat = OVF_HEX; oResult = TRUE; } else { m_ValueStringFormat = OVF_DEC; oResult = FALSE; } return oResult; }
BOOL CCANopenFrame::CopyReceivedData_NetworkIndication(DWORD* p_pulCobId, WORD* p_usTargetNetworkId, BYTE* p_pubTargetNodeId, DWORD* p_pulAbortCode) { const int COMMAND_SPECIFIER = 7; const int ABORT_COMMAND_SPECIFIER = 4; BOOL oResult(FALSE); if(p_pulCobId && p_usTargetNetworkId && p_pubTargetNodeId && p_pulAbortCode) { if(m_FrameBuffer.nCanData.sNetworkIndication_ReceiveFrame.scs == COMMAND_SPECIFIER) { *p_pulCobId = m_FrameBuffer.dId; *p_usTargetNetworkId = m_FrameBuffer.nCanData.sNetworkIndication_ReceiveFrame.m1; *p_pubTargetNodeId = m_FrameBuffer.nCanData.sNetworkIndication_ReceiveFrame.m2; *p_pulAbortCode = 0; oResult = TRUE; } else if(m_FrameBuffer.nCanData.sAbortTransfer_AbortFrame.cs == ABORT_COMMAND_SPECIFIER) { *p_pulCobId = m_FrameBuffer.dId; *p_usTargetNetworkId = 0; *p_pubTargetNodeId = 0; *p_pulAbortCode = m_FrameBuffer.nCanData.sAbortTransfer_AbortFrame.abortCode; oResult = TRUE; } } return oResult; }
BOOL CCANopenFrame::PrepareSendFrame_InitiateSDODownload(DWORD p_ulCobId, BOOL p_oExpeditedTransfer, BOOL p_oSizeIndicated, BYTE p_ubNonValidNbOfBytes, WORD p_usIndex, BYTE p_ubSubIndex, void* p_pDataBuffer, DWORD p_ulDataBufferLength) { const int FRAME_SIZE = 8; const int COMMAND_SPECIFIER = 1; const unsigned long MAX_DATA_SIZE = 4; BOOL oResult(FALSE); ResetFrame(); if(p_pDataBuffer) { //Limit Values if(p_ulDataBufferLength > MAX_DATA_SIZE) p_ulDataBufferLength = MAX_DATA_SIZE; if(p_ubNonValidNbOfBytes > MAX_DATA_SIZE) p_ubNonValidNbOfBytes = MAX_DATA_SIZE; if(!p_oExpeditedTransfer || !p_oSizeIndicated) p_ubNonValidNbOfBytes = 0; //Frame m_FrameBuffer.dId = p_ulCobId; m_FrameBuffer.oRtr = FALSE; m_FrameBuffer.wDlc = FRAME_SIZE; m_FrameBuffer.nCanData.sInitiateSDODownload_SendFrame.ccs = COMMAND_SPECIFIER; m_FrameBuffer.nCanData.sInitiateSDODownload_SendFrame.n = p_ubNonValidNbOfBytes; m_FrameBuffer.nCanData.sInitiateSDODownload_SendFrame.e = p_oExpeditedTransfer; m_FrameBuffer.nCanData.sInitiateSDODownload_SendFrame.s = p_oSizeIndicated; m_FrameBuffer.nCanData.sInitiateSDODownload_SendFrame.index = p_usIndex; m_FrameBuffer.nCanData.sInitiateSDODownload_SendFrame.subIndex = p_ubSubIndex; memcpy(m_FrameBuffer.nCanData.sInitiateSDODownload_SendFrame.data, p_pDataBuffer, p_ulDataBufferLength); oResult = TRUE; } return oResult; }
BOOL CCANopenFrame::CopyReceivedData_DownloadSDOSegment(DWORD* p_pulCobId, BOOL* p_poToggle, DWORD* p_pulAbortCode) { const int COMMAND_SPECIFIER = 1; const int ABORT_COMMAND_SPECIFIER = 4; BOOL oResult(FALSE); if(p_pulCobId && p_poToggle && p_pulAbortCode) { if(m_FrameBuffer.nCanData.sDownloadSDOSegment_ReceiveFrame.scs == COMMAND_SPECIFIER) { *p_pulCobId = m_FrameBuffer.dId; *p_poToggle = m_FrameBuffer.nCanData.sDownloadSDOSegment_ReceiveFrame.t; *p_pulAbortCode = 0; oResult = TRUE; } else if(m_FrameBuffer.nCanData.sAbortTransfer_AbortFrame.cs == ABORT_COMMAND_SPECIFIER) { *p_pulCobId = m_FrameBuffer.dId; *p_pulAbortCode = m_FrameBuffer.nCanData.sAbortTransfer_AbortFrame.abortCode; oResult = TRUE; } } return oResult; }
BOOL CCANopenFrame::CopyReceivedData_InitiateSDODownload(DWORD* p_pulCobId, WORD* p_pusIndex, BYTE* p_pubSubIndex, DWORD* p_pulAbortCode) { const int COMMAND_SPECIFIER = 3; const int ABORT_COMMAND_SPECIFIER = 4; BOOL oResult(FALSE); if(p_pulCobId && p_pusIndex && p_pubSubIndex && p_pulAbortCode) { if(m_FrameBuffer.nCanData.sInitiateSDODownload_ReceiveFrame.scs == COMMAND_SPECIFIER) { *p_pulCobId = m_FrameBuffer.dId; *p_pusIndex = m_FrameBuffer.nCanData.sInitiateSDODownload_ReceiveFrame.index; *p_pubSubIndex = m_FrameBuffer.nCanData.sInitiateSDODownload_ReceiveFrame.subIndex; *p_pulAbortCode = 0; oResult = TRUE; } else if(m_FrameBuffer.nCanData.sAbortTransfer_AbortFrame.cs == ABORT_COMMAND_SPECIFIER) { *p_pulCobId = m_FrameBuffer.dId; *p_pusIndex = m_FrameBuffer.nCanData.sAbortTransfer_AbortFrame.index; *p_pubSubIndex = m_FrameBuffer.nCanData.sAbortTransfer_AbortFrame.subIndex; *p_pulAbortCode = m_FrameBuffer.nCanData.sAbortTransfer_AbortFrame.abortCode; oResult = TRUE; } } return oResult; }
BOOL CCANopenFrame::PrepareSendFrame_DownloadSDOSegment(DWORD p_ulCobId, BOOL p_oToggle, BYTE p_ubNonValidNbOfBytes, BOOL p_oNoMoreSegments, void* p_pSegDataBuffer, DWORD p_ulSegDataBufferLength) { const int FRAME_SIZE = 8; const int COMMAND_SPECIFIER = 0; const unsigned long MAX_DATA_SIZE = 7; BOOL oResult(FALSE); ResetFrame(); if(p_pSegDataBuffer) { //Limit Values if(p_ulSegDataBufferLength > MAX_DATA_SIZE) p_ulSegDataBufferLength = MAX_DATA_SIZE; if(p_ubNonValidNbOfBytes > MAX_DATA_SIZE) p_ubNonValidNbOfBytes = MAX_DATA_SIZE; //Frame m_FrameBuffer.dId = p_ulCobId; m_FrameBuffer.oRtr = FALSE; m_FrameBuffer.wDlc = FRAME_SIZE; m_FrameBuffer.nCanData.sDownloadSDOSegment_SendFrame.ccs = COMMAND_SPECIFIER; m_FrameBuffer.nCanData.sDownloadSDOSegment_SendFrame.n = p_ubNonValidNbOfBytes; m_FrameBuffer.nCanData.sDownloadSDOSegment_SendFrame.c = p_oNoMoreSegments; m_FrameBuffer.nCanData.sDownloadSDOSegment_SendFrame.t = p_oToggle; memcpy(m_FrameBuffer.nCanData.sDownloadSDOSegment_SendFrame.data, p_pSegDataBuffer, p_ulSegDataBufferLength); oResult = TRUE; } return oResult; }
BOOL CObjectEntry::SetSubIndex(BYTE subIndex) { BOOL oResult(TRUE); m_uSubIndex = subIndex; return oResult; }
BOOL CObjectEntry::GetObjFlags(CStdString& strObjFlags) { BOOL oResult(TRUE); strObjFlags = m_strObjFlags; return oResult; }
/// Load a gray-scale image from disk. void loadImage(const std::string & rFileName, ImageNPP_8u_C1 & rImage) { ImageCPU_8u_C1 oImage; loadImage(rFileName, oImage); ImageNPP_8u_C1 oResult(oImage); rImage.swap(oResult); }
BOOL CObjectEntry::SetObjFlags(DWORD objFlags) { BOOL oResult(TRUE); m_strObjFlags.Format("%i", objFlags); return oResult; }
BOOL CObjectEntry::GetHighLimit(CStdString& strHighLimit) { BOOL oResult(TRUE); strHighLimit = m_strHighLimit; return oResult; }
BOOL CObjectEntry::GetPDOMappingToken(CStdString& strPdoMapping) { BOOL oResult(TRUE); if(m_oPDOMapping) strPdoMapping = "optional"; else strPdoMapping = "no"; return oResult; }
BOOL CObjectEntry::GetPDOMapping(CStdString& strPdoMapping) { BOOL oResult(TRUE); if(m_oPDOMapping) strPdoMapping = "1"; else strPdoMapping = "0"; return oResult; }
BOOL CObjectEntry::SetObjFlags(CStdString objFlags) { BOOL oResult(TRUE); m_strObjFlags = objFlags; return oResult; }
BOOL CObjectEntry::GetSubIndex(CStdString& strSubIndex) { BOOL oResult(TRUE); strSubIndex.Format("0x%.2X", m_uSubIndex); return oResult; }
BOOL CObjectEntry::GetDefaultValue(CStdString& strDefaultValue) { BOOL oResult(TRUE); strDefaultValue = m_strDefault; return oResult; }
BOOL CObjectEntry::SetDefaultValue(CStdString defaultValue) { BOOL oResult(TRUE); m_strDefault = defaultValue; return oResult; }
BOOL CObjectEntry::SetHighLimit(CStdString highLimit) { BOOL oResult(TRUE); m_strHighLimit = highLimit; return oResult; }
BOOL CObjectEntry::SetLowLimit(CStdString lowLimit) { BOOL oResult(TRUE); m_strLowLimit = lowLimit; return oResult; }
BOOL CObjectEntry::SetPDOMapping(BYTE pdoMapping) { BOOL oResult(TRUE); m_oPDOMapping = pdoMapping; return oResult; }
// internal static void FreePtrMatrix(IntPtr pointer, int nRows) // { // IntPtr[] rows = new IntPtr[nRows]; // Marshal.Copy(pointer, rows, 0, nRows); // for (int i = 0; i < nRows; i++) // { // Marshal.FreeHGlobal(rows[i]); // } // for (int) // Marshal.FreeHGlobal(pointer); // } // FreePtrMatrix(pointer, nRows) // // /// <summary> // /// Free ptr vector // /// </summary> // internal static void FreePtrVector(IntPtr ptrValues) // { // Marshal.FreeHGlobal(ptrValues); // } // FreePtrVector(ptrValues) // // /// <summary> // /// Get complex array from ptr // /// </summary> // internal static Complex[] GetComplexArrayFromPtr(IntPtr pointerReal, IntPtr pointerImag, int nLength) // { // Complex[] oResult = new Complex[nLength]; // double[] realTemp = GetDoubleArrayFromPtr(pointerReal, nLength); // double[] imagTemp = GetDoubleArrayFromPtr(pointerImag, nLength); // // for (int i = 0; i < nLength; i++) // { // oResult[i] = new Complex(realTemp[i], imagTemp[i]); // } // for (int) // return oResult; // } // GetComplexArrayFromPtr(pointerReal, pointerImag, nLength) // // /// <summary> // /// Get complex array from ptr // /// </summary> // internal static Complex[] GetComplexArrayFromPtrLA(IntPtr pointerReal, IntPtr pointerImag, int nLength) // { // Complex[] oResult = new Complex[nLength]; // double[] realTemp = GetDoubleArrayFromPtrLA(pointerReal, nLength); // double[] imagTemp = GetDoubleArrayFromPtrLA(pointerImag, nLength); // // for (int i = 0; i < nLength; i++) // { // oResult[i] = new Complex(realTemp[i], imagTemp[i]); // } // for (int) // return oResult; // } // GetComplexArrayFromPtr(pointerReal, pointerImag, nLength) // // // /// <summary> // /// Get complex matrix from ptr // /// </summary> // internal static Complex[][] GetComplexMatrixFromPtr(IntPtr pointerReal, IntPtr pointerImag, int nRows, int nCols) // { // Complex[][] oResult = new Complex[nRows][]; // double[][] realTemp = GetDoubleMatrixFromPtr(pointerReal, nRows, nCols); // double[][] imagTemp = GetDoubleMatrixFromPtr(pointerImag, nRows, nCols); // // for (int i = 0; i < nRows; i++) // { // oResult[i] = new Complex[nCols]; // for (int j = 0; j < nCols; j++) // { // oResult[i][j] = new Complex(realTemp[i][j], imagTemp[i][j]); // } // for (int) // } // for (int) // return oResult; // } // GetComplexMatrixFromPtr(pointerReal, pointerImag, nRows) // // /// <summary> // /// Get complex matrix from ptr // /// </summary> // internal static Complex[][] GetComplexMatrixFromPtrLA(IntPtr pointerReal, IntPtr pointerImag, int nRows, int nCols) // { // Complex[][] oResult = new Complex[nRows][]; // double[][] realTemp = GetDoubleMatrixFromPtrLA(pointerReal, nRows, nCols); // double[][] imagTemp = GetDoubleMatrixFromPtrLA(pointerImag, nRows, nCols); // // for (int i = 0; i < nRows; i++) // { // oResult[i] = new Complex[nCols]; // for (int j = 0; j < nCols; j++) // { // oResult[i][j] = new Complex(realTemp[i][j], imagTemp[i][j]); // } // for (int) // } // for (int) // return oResult; // } // GetComplexMatrixFromPtrLA(pointerReal, pointerImag, nRows) // // /// <summary> // /// Get double array from ptr // /// </summary> // internal static double[] GetDoubleArrayFromPtr(IntPtr pointer, int nLength) // { // double[] oResult = new double[nLength]; // Marshal.Copy(pointer, oResult, 0, nLength); // StructAnalysis.FreeVector(pointer); // return oResult; // } // GetDoubleArrayFromPtr(pointer, nLength) // // /// <summary> // /// Get double array from ptr // /// </summary> // internal static double[] GetDoubleArrayFromPtrLA(IntPtr pointer, int nLength) // { // double[] oResult = new double[nLength]; // Marshal.Copy(pointer, oResult, 0, nLength); // LA.FreeVector(pointer); // return oResult; // } // GetDoubleArrayFromPtr(pointer, nLength) // /// <summary> /// Get double matrix from ptr /// </summary> ls::DoubleMatrix GetDoubleMatrixFromPtr(IntPtr pointer, int nRows, int nCols) { // double* oResult = new double[nRows*nCols]; ls::DoubleMatrix oResult(nRows, nCols); // double* Matrix = (double*) pointer; double** Matrix = (double**) pointer; for(int row = 0; row < nRows; row++) { for(int col = 0; col < nCols; col++) { oResult(row, col) = Matrix[row][col]; } } // StructAnalysis.FreeMatrix(pointer, nRows); return oResult; }
cv::Mat lv::BinClassif::getColoredMask(const cv::Mat& oClassif, const cv::Mat& oGT, const cv::Mat& oROI) { lvAssert_(!oClassif.empty() && oClassif.type()==CV_8UC1,"binary classifier results must be non-empty and of type 8UC1"); lvAssert_(oGT.empty() || oGT.type()==CV_8UC1,"gt mat must be empty, or of type 8UC1") lvAssert_(oROI.empty() || oROI.type()==CV_8UC1,"ROI mat must be empty, or of type 8UC1"); lvAssert_((oGT.empty() || oClassif.size()==oGT.size()) && (oROI.empty() || oClassif.size()==oROI.size()),"all input mat sizes must match"); if(oGT.empty()) { cv::Mat oResult; cv::cvtColor(oClassif,oResult,cv::COLOR_GRAY2BGR); return oResult; } cv::Mat oResult(oClassif.size(),CV_8UC3,cv::Scalar_<uchar>(0)); const size_t step_row = oClassif.step.p[0]; for(size_t i=0; i<(size_t)oClassif.rows; ++i) { const size_t idx_nstep = step_row*i; const uchar* input_step_ptr = oClassif.data+idx_nstep; const uchar* gt_step_ptr = oGT.data+idx_nstep; const uchar* roi_step_ptr = oROI.data+idx_nstep; uchar* res_step_ptr = oResult.data+idx_nstep*3; for(int j=0; j<oClassif.cols; ++j) { if(gt_step_ptr[j]!=DATASETUTILS_OUTOFSCOPE_VAL && gt_step_ptr[j]!=DATASETUTILS_UNKNOWN_VAL && (oROI.empty() || roi_step_ptr[j]!=DATASETUTILS_NEGATIVE_VAL)) { if(input_step_ptr[j]==DATASETUTILS_POSITIVE_VAL) { if(gt_step_ptr[j]==DATASETUTILS_POSITIVE_VAL) res_step_ptr[j*3+1] = UCHAR_MAX; else if(gt_step_ptr[j]==DATASETUTILS_NEGATIVE_VAL) res_step_ptr[j*3+2] = UCHAR_MAX; else if(gt_step_ptr[j]==DATASETUTILS_SHADOW_VAL) { res_step_ptr[j*3+1] = UCHAR_MAX/2; res_step_ptr[j*3+2] = UCHAR_MAX; } else { for(size_t c=0; c<3; ++c) res_step_ptr[j*3+c] = UCHAR_MAX/3; } } else { // input_step_ptr[j]==s_nSegmNegative if(gt_step_ptr[j]==DATASETUTILS_POSITIVE_VAL) { res_step_ptr[j*3] = UCHAR_MAX/2; res_step_ptr[j*3+2] = UCHAR_MAX; } } } else if(!oROI.empty() && roi_step_ptr[j]==DATASETUTILS_NEGATIVE_VAL) { for(size_t c=0; c<3; ++c) res_step_ptr[j*3+c] = UCHAR_MAX/2; } else { for(size_t c=0; c<3; ++c) res_step_ptr[j*3+c] = input_step_ptr[j]; } } } return oResult; }
BOOL CObjectEntry::IsPdoMappable() { BOOL oResult(FALSE); if(IsRxPdoMappable() || IsTxPdoMappable()) { oResult = TRUE; } return oResult; }
BOOL CObjectEntry::IsValueAvailable() { BOOL oResult(FALSE); if(m_pValue) { oResult = TRUE; } return oResult; }
BOOL CObjectEntry::IsTxPdoMappable() { BOOL oResult(FALSE); if(m_oPDOMapping && ((m_AccessType == AT_READ_WRITE) || (m_AccessType == AT_READ_WRITE_WRITE) || (m_AccessType == AT_READ_WRITE_READ) || (m_AccessType == AT_READ_ONLY))) { oResult = TRUE; } return oResult; }
cv::Mat litiv::MetricsAccumulator_<litiv::eDatasetEval_BinaryClassifier>::getColoredMask(const cv::Mat& oClassif, const cv::Mat& oGT, const cv::Mat& oROI) { CV_Assert(!oClassif.empty() && oClassif.type()==CV_8UC1 && (oGT.empty() || oGT.type()==CV_8UC1) && (oROI.empty() || oROI.type()==CV_8UC1)); CV_Assert((oGT.empty() || oClassif.size()==oGT.size()) && (oROI.empty() || oClassif.size()==oROI.size())); if(oGT.empty()) { cv::Mat oResult; cv::cvtColor(oClassif,oResult,cv::COLOR_GRAY2BGR); return oResult; } cv::Mat oResult(oClassif.size(),CV_8UC3,cv::Scalar_<uchar>(0)); const size_t step_row = oClassif.step.p[0]; for(size_t i=0; i<(size_t)oClassif.rows; ++i) { const size_t idx_nstep = step_row*i; const uchar* input_step_ptr = oClassif.data+idx_nstep; const uchar* gt_step_ptr = oGT.data+idx_nstep; const uchar* roi_step_ptr = oROI.data+idx_nstep; uchar* res_step_ptr = oResult.data+idx_nstep*3; for(int j=0; j<oClassif.cols; ++j) { if(gt_step_ptr[j]!=DATASETUTILS_OUTOFSCOPE_VAL && gt_step_ptr[j]!=DATASETUTILS_UNKNOWN_VAL && (oROI.empty() || roi_step_ptr[j]!=dATASETUTILS_NEGATIVE_VAL)) { if(input_step_ptr[j]==DATASETUTILS_POSITIVE_VAL) { if(gt_step_ptr[j]==DATASETUTILS_POSITIVE_VAL) res_step_ptr[j*3+1] = UCHAR_MAX; else if(gt_step_ptr[j]==dATASETUTILS_NEGATIVE_VAL) res_step_ptr[j*3+2] = UCHAR_MAX; else if(gt_step_ptr[j]==DATASETUTILS_SHADOW_VAL) { res_step_ptr[j*3+1] = UCHAR_MAX/2; res_step_ptr[j*3+2] = UCHAR_MAX; } else { for(size_t c=0; c<3; ++c) res_step_ptr[j*3+c] = UCHAR_MAX/3; } } else { // input_step_ptr[j]==s_nSegmNegative if(gt_step_ptr[j]==DATASETUTILS_POSITIVE_VAL) { res_step_ptr[j*3] = UCHAR_MAX/2; res_step_ptr[j*3+2] = UCHAR_MAX; } } } else if(!oROI.empty() && roi_step_ptr[j]==dATASETUTILS_NEGATIVE_VAL) { for(size_t c=0; c<3; ++c) res_step_ptr[j*3+c] = UCHAR_MAX/2; } else { for(size_t c=0; c<3; ++c) res_step_ptr[j*3+c] = input_step_ptr[j]; } } } return oResult; }
BOOL CInterfaceBase::I_GetDefaultInterfaceSettings(DWORD* pdBaudrate, DWORD* pdTimeout, CErrorInfo* pErrorInfo) { BOOL oResult(FALSE); //Get Default PortSettings if(m_pGateway) { oResult = m_pGateway->GetDefaultPortSettings(pdBaudrate, pdTimeout, pErrorInfo); } return oResult; }